| Reverse engineering |
Study program |
RE Reverse Engineering |
Preparation and processing of point clouds into 3D models. Preparation of measurement data: acquisition and initial processing into complete point clouds. Construction of a 3D model in specialist software. |
|
| Reverse Engineering |
Study program |
RE Reverse Engineering |
Introduction of the doctoral students to the methods of product design in reverse engineering systems. From the model to the product - basics of reverse engineering. Methods of digitizing objects. Assessment of the accuracy of digitization
methods for objects. Basics of modelling curves and surfaces in CAD systems. From the point cloud to the parametric surface -
basics of modelling in reverse engineering systems. Assessment of the accuracy of reverse engineering methods. Examples of applications of reverse engineering methods in technology and medicine |
|
| Reverse Engineetring |
Study program |
RE Reverse Engineering |
LECTURE: Reverse engineering, methods of mapping a real model into a virtual model. Methods of scanning surfaces, creating data clouds, defining surfaces. Data formats used in reverse engineering, data conversion and conversion errors. Creating CAD models based on data obtained from computed tomography and magnetic resonance imaging techniques.LABORATORY EXERCISES: Creating a CAD model in *.stl format with different resolution.Scanning surfaces using different methods. processing raw data. Comparing scanned elements with the CAD model. CAD modeling from a point cloud. |
|
| Reverse Engineering |
Study program |
RE Reverse Engineering |
This curricular unit intends to transmit fundamental notions on Reverse Engineering using laser scanning, and on the modelling and analysis of structures using finite element method. Being this curricular unit, part of the second cycle in Mechanical Engineering, it also constitutes a goal, to provide the future Masters with skills in the domains of modelling and analysis of structures, in re-engineering and/or components design context. With this main objective and also aiming for illustrating the knowledge acquired, one uses commercial applications / platforms for the surface reconstruction acquired via laser scanning, as well as to develop and implement finite element models. The conclusion of this curricular unit provides the skills to carry out the different stages of a reengineering process, in connection to finite element concepts. It also provides the student with the necessary knowledge to critically understand the characteristics and limitations of the whole process. |
|
| Reverse Engineering |
Study program |
RE Reverse Engineering |
This course is intended for any teacher or educator who desires to use 3D design/ scanning/ printing technology in the classroom to increase or develop their students' creativity and design-thinking mindset. The reverse engineering process includes 3D scanning an object and a) 3D printing directly for cloning or b) modifying the object (3D design) & then 3D printing an improved version. |
|
| Reverse Engineering Course |
Study program |
RE Reverse Engineering |
This course in Reverse Engineering prepares you to understand the fundamentals of reverse engineering and apply them effectively in the analysis, protection and development of software. You will learn to use cracking tools, detect and control malware, respond to security incidents and apply analysis techniques in practical cases so you will be able to face challenges in computer security.
Objectives
Understand the concept of Reverse Engineering and its applications in software and systems analysis.
Identify the characteristics and advantages of Reverse Engineering.
Explore the different types of Reverse Engineering.
To become familiar with cracking tools such as debuggers, disassemblers and reverse compilers.
Learn about malware detection and containment systems, as well as techniques for analysis and control.
To learn about the security incident response process and the techniques used for analysis. |
|
| Engineering Design for a Circular Economy |
Study program |
Mix RE-CE |
Discover and develop sustainable design and engineering methods to improve the reuse, repair, remanufacturing, and recycling of products for a circular economy. |
|
| Circular Economy Professional (Foundational) |
Study program |
CE Circular Economy |
The Circular Economy Professional (Foundational) certification program is designed to equip individuals with the essential knowledge and skills required to understand and implement circular economy principles within their organizations or on a personal level. |
|
| Circular Economy Manager (Advanced) |
Study program |
CE Circular Economy |
This program equips you with the advanced knowledge and strategic insights needed to lead teams and projects through the transition to circularity. Gain a deeper grasp of Circular Economy principles in diverse contexts and real-world applications. Leverage your expertise to guide your organization with confidence, ensuring a smooth and effective shift toward circular and regenerative business practices. |
|
| Circular Economy Specialist (High Mastery) |
Study program |
CE Circular Economy |
The Circular Economy Specialist (High-Mastery) certification is our most advanced program, designed to position you as a recognized leader in the Circular Economy field. This certification equips you with comprehensive, functional, and practical expertise, enabling you to drive meaningful change at an organizational, industry, and systemic level. Establish yourself as your organization’s go-to expert, ready to lead consultancy projects, implement circular solutions, and drive systemic transformation. Master the art of closing loops and shaping the future of sustainable business. |
|
| Circular economy |
Study program |
CE Circular Economy |
Definitions related to the circular economy (CE).
Circular economy in international, EU and Polish ecololigal politics. Goals and principles of CE. Circular economy areas: product design, production and consumption, waste management. Implementation of CE activities in various sectors of the economy, including eco-design, recycling, reuse. Financing CE activities. |
|
| Engineering Design for a Circular Economy |
Study program |
CE Circular Economy |
Week 1. Introduction: The materials challenge and the importance of product design for a Circular Economy. Focus on economic and social drivers and barriers to change.
Week 2. Design for Reuse: Towards the production of long-lasting products with reliable performance and minimum maintenance requirements. Product use intensification in the Sharing Economy.
Week 3. Design for Repair: Allows quick and efficient access to key components and connections. Making products fit for use again in a time- and resource-effective way.
Week 4. Design for Remanufacture: Re-manufactured products should look and perform as new. This implies a complex new system of reverse logistics, cleaning and conditioning facilities, as well as a shift in client and consumer mentality.
Week 5. Design for Recycle: Eventually most products will be broken down into individual materials. Choices such as the use of composites or chemical connections affects the recyclability and economic value of materials.
Week 6. Conclusion: Thinking in loops. Creating sustainable value through strategic product and business design for a Circular Economy. |
|
| Circular Economy: An Introduction |
Study program |
CE Circular Economy |
What you'll learn:
Episode 1: What is the circular economy?
How can the circular economy provide solutions to the challenges our current, linear economy brings? We explore the roots of the circular economy together with experts in the fields of industrial ecology, cradle to cradle and biomimicry.
Episode 2: Business value in a circular economy
Through closed loop supply chains and reversed logistics, new opportunities for business are created. This episode explores value creation and new business models in a circular economy.
Episode 3: Longer lasting products
The smaller the loop, the greater the profitability of the system. We look at product life extension through the eyes of designers and entrepreneurs. Join us in our repair café!
Episode 4: Remanufacturing
Remanufacturing enables companies to recapture value on a product or component level. It is currently being rediscovered as a promising business opportunity. We'll explore the topic together with researchers and entrepreneurs.
Episode 5: Waste equals Food
This episode discusses how we can take inspiration from nature, when redesigning the way we deal with waste. We'll present a fascinating circular case study. Can you identify opportunities for change in your own area's?
Episode 6: Thinking in systems
The shift from linear to circular should not be underestimated. This episode will discuss the extent and duration of the transition. It will also ask, is the circular economy really sustainable?
Episode 7: Full Circle
We end the course with a selection of your narratives for a circular economy. A final exam will test your knowledge acquired over the past 6 episodes. |
|
| Circular Economy and Sustainability Strategies |
Study program |
RE Reverse Engineering |
The overexploitation of natural resources required to achieve economic growth and development has negatively impacted the environment and adversely affected their availability and cost. So, it is easy to see why the idea of a circular economy, which offers new ways to create a more sustainable economic growth model, is taking hold across the globe. The six-week Circular Economy and Sustainability Strategies online programme is designed to help you understand the growing business case for sustainable solutions and learn how to manage and grow a sustainable business by incorporating circular economy principles into your strategies. |
|
| Reverse Engineering Training | Security Training in Paris |
Study program |
RE Reverse Engineering |
Reverse Engineering Training Course Outline:
Module 1: Introduction to Reverse Engineering.
Module 2: Low-Level Software.
Module 3: Windows Fundamentals.
Module 4: Exploring Reversing Tools.
Module 5: Deciphering File Formats.
Module 6: Auditing Program Binaries and Reversing Malware.
Module 7: Piracy and Copy.
Module 8: Antireversing Techniques.
Module 9: Introduction to Reversing .NET.
Module 10: Overview of Decompilation. |
|
| IC101P Reverse Engineering |
Study program |
RE Reverse Engineering |
Learning Topics: Forward Engineering Design, Design Thought and Process, Design Steps, System RE, RE Methodology, RE Steps, System level Design, and Examples, Product Development, Product Functions, Engineering Specifications, Product Architecture, Mechanical RE, Computer-Aided RE, Electronic RE, Identify electronic components, PCB RE, Schematic Drawings and Analysis, S/W RE, Reverse Engineering in Computer Applications, Re-engineering of PLC programs. |
|
| Introduction to Reverse Engineering (84002) |
Study program |
RE Reverse Engineering |
Module 1 - Introduction to Reverse Engineering: Understand the fundamentals of reverse engineering and discuss the associated applications and ethical concerns.
Module 2 - Product Disassembly and Analysis: Engage in tasks such as product autopsies, disassembly of products, and recording analysis and recovery information.
Module 3 - Manual Measuring: Learn to identify key dimensions and explore different manual measuring methods used for reverse engineering.
Module 4 – Validation and Verification Process: Undergo the process of validating and verifying reverse engineering work conducted by yourself and others. |
|
| Reverse Engineering and Inspection Techniques |
Study program |
RE Reverse Engineering |
Introduction.
Forward Engineering Design: Design Thought and Process, Design Steps, Mechatronic Systems Design.
System RE: RE Methodology, RE Steps, System level Design, and Examples.
Product Development.
Product Functions.
Product Teardown Engineering Specifications Product Architecture.
Mechanical RE: Computer-Aided RE, Rapid Prototyping.
Electronic RE: Identify electronic components, PCB RE, Schematic Drawings and Analysis, Verilog and VHDL.
S/W RE: Intro to Formal Methods & Software Engineering Methods, Reverse Engineering in Computer Applications, Re-engineering of PLC programs. |
|
| Advanced Cae: Reverse Engineering |
Study program |
RE Reverse Engineering |
This course is an introduction to the use of modern computer-aided design (CAD) techniques in generation of 3D digital models from physical objects. Topics include contact and non-contact data acquisition techniques, data type and exchange formats, and advanced visualization and surfacing techniques. |
|
| Reverse Engineering in Manufacturing Mechanical Spare Parts |
Study program |
RE Reverse Engineering |
The training focuses on reverse engineering techniques in the production of machine spare parts. The training programme includes: modern CAD methods, creation of digital models based on physical objects, data acquisition techniques such as contact and non-contact scanning, advanced modelling and visualisation techniques. |
|
| Reverse Engineering in Electronic Systems |
Study program |
RE Reverse Engineering |
The course covers the basics of reverse engineering software and hardware. In the software part, participants learn about code analysis techniques, obfuscation and malware analysis. The hardware part focuses on the analysis of integrated circuits, circuit boards and tools such as JTAG. Mathematical methods of analysis, such as power consumption analysis, are also discussed. |
|
| Reverse Engineering and Vulnerability Analysis |
Study program |
RE Reverse Engineering |
To develop critical thinking skills required to analyze and protect against vulnerabilities in both source code and executable binaries. To analyze and detect malicious code running on systems. To better prepare students for the ever-evolving threat of vulnerabilities, exploits and malicious software in a real-world environment.
Throughout the course, students will use industry standard tools and develop customized solutions to help further binary/code analysis. Using real-world vulnerability classes, students will examine how attackers identify flaws in modern software and exploit these flaws bypassing state-of-the-art protection mechanisms found in modern operating systems. Students will also identify how to patch these issues and develop extensions of protection mechanisms to thwart attacks, raising the bar for the attacker and improving the security posture of a system. Using a combination of static analysis, dynamic analysis, fault injection and fuzzing, this course will provide students with the modern skills needed to help stop attackers! |
|
| 3D Scanning Methods for Reverse Engineering |
Study program |
RE Reverse Engineering |
Digitising assets, bespoke and small batch manufacturing are aligned with Industry 4.0 processes. This microcredential equips participants with skills in using 3D scanning technology to capture physical objects. You will learn tools and processes to produce CAD models from 3D scanned data for downstream analysis and/or manufacturing.
The content of the microcredential is structured into 3 modules. The following content will be covered during the course:
Module 1: Using 3D scanning to capture geometry
Intrinsic and extrinsic camera parameters
Principles of 3D scanning technology
Representations of 3D geometry.
Module 2: Using mesh processing software
Data cleaning tasks such as outlier and background removal
Alignment, surface reconstruction, hole filling, and manipulation of meshes.
Module 3: Adapting 3D scans for CAD
Understand the link between mesh complexity and CAD model geometry
Create native surfaces on top of imported 3D data in CAD software. |
|
| Manual Methods for Reverse Engineering |
Study program |
RE Reverse Engineering |
Learn the principles and techniques of manual reverse engineering methods and their application in manufacturing and quality assurance. This highly sought after skillset will help to unlock the door to a rewarding career in this rapidly expanding field.
The course is structured into 3 modules, with each including online, self-study and in-person lab sessions. The following content will be covered during the course:
Module 1: Introduction to Reverse Engineering and 3D Scanning:
Week 1 - Introduction to reverse engineering;
Week 2 - Introduction to 3D scanning and modelling.
Module 2: Manual Measurement & Tolerancing:
Week 3 - Fundamentals of manual measurement;
Week 4 – Tolerancing.
Module 3: Advanced Measurements & Quality Assurance:
Week 5 - Advanced measurement techniques (bookable access to the Coordinate Measuring Machine (CMM) available);
Week 6 - Quality assurance.
Module 4: Practical Applications of Reverse Engineering:
Week 7 - Manual reverse engineering in industry. |
|
| Reverse Engineering Process |
Study program |
RE Reverse Engineering |
Refine your data collection and manipulation techniques to drive design innovation. Hone your skills in component setup for reverse engineering and conversion of data into usable models. Verify the precision of your work for machining, 3D printing and quality assurance purposes. This training is essential for design and manufacturing professionals seeking to optimise their efficiency and precision. |
|
| Introduction to Reverse Engineering |
Study program |
RE Reverse Engineering |
Learn the principles and techniques of ethical reverse engineering, including component selection, data collection and digital model validation and verification. Essential for mechanical design, manufacturing and quality assurance professionals, this course enables enhanced efficiency and reduced costs by applying reverse engineering methods to various fields. |
|
| Reverse Engineering |
Study program |
RE Reverse Engineering |
This course focuses on software reverse engineering. It presents the fundamental concepts of static program analysis (basic blocks, call graphs, inter-procedural analysis, etc.) and dynamic program analysis (dynamic instrumentation, execution environment, etc.). The course also discusses program analysis challenges such as code obfuscation. The course describes multiple reverse engineering applications such as malware analysis, patch analysis to identify vulnerabilities and analysis of an embedded system's firmware. |
|
| Binary Reverse Engineering And Analysis (RE) |
Study program |
RE Reverse Engineering |
Objectives:
- understand what an executable does and how it works,
- go from binaries back to something resembling source code,
- pitfall due to architecture and coding issues,
- exploit binaries,
- you will be able to analyze a binary executable.
|
|
| Reverse Engineering and Malware Analysis |
Study program |
RE Reverse Engineering |
This course will give students an overview of cutting edge reverse engineering techniques as well as software security and defense practices. Programming experience in C required. |
|
| Reverse Engineering Course |
Study program |
RE Reverse Engineering |
The RE course has been included in five engineering curricula (electrical, mechanical, computer, telecommunication and mechatronics). PU engineering students are expected to work on two main projects during their studies: a second and a fifth year project. These projects provide students with essential practical skills such as design, testing and implementation. The methodology and experience in developing project courses at PU has been highlighted in Tutunji et al. (2007, 2009). Project-based learning and problem-based education are important factors in undergraduate design courses (Denayer et al. 2003).
One main goal of engineering programmes is to develop practical skills that can help to improve engineering products and systems. |
|
| KATCH-e Training for Circular Economy in the Construction and Furniture Sectors |
Study program |
CE Circular Economy |
Training for Circular Economy in the Construction and Furniture Sectors course include: materials for enabling Circular Economy in the construction and furniture sector. The contents address students and professionals
in industry and specifically focus on the development of sustainable product-services.Also entrepreneurial skills leading to innovative products, services and business models |
|
| Mechanical Analysis and Design |
Study program |
RE Reverse Engineering |
Training Course include: 3d scanning; SolidWorks ScanTo3D program; 3d scanning: Faro scan Arm, blue light scanner, white light scanner; 3D complex surface modeling |
|
| The circular economy and climate protection – Master course |
Study program |
CE Circular Economy |
Master course include: eco-design; bioengineering; LCA (Life Cycle Assessment); recycling; advanced water and wastewater treatment systems; food industry waste treatment technologies; modelling in waste management |
|
| Reverse engineering and CAD/CAM application in the design of maxillofacial prosthesis. |
Publications |
RE Reverse Engineering |
This research study describes the design and fabrication of three different facial prostheses (ocular, obturator, and auricular). The procedure is divided into three stages: Reverse Engineering (RE), CAD design, and CAM manufacture. A portable Three-Dimensional (3D) scanner is used to collect patient data during reverse engineering. |
|
| xOne: 3D Scanner & 3D Editor (Android) |
Software |
RE Reverse Engineering |
3D Scanning App |
|
| RealityScan (iOS, Android) |
Software |
RE Reverse Engineering |
3D Scanning App |
|
| Polycam: 3D Scanner & Editor |
Software |
RE Reverse Engineering |
Polycam, the top-rated 3D capture app for Android. Ideal for architects, artists, designers, contractors, photographers, and anyone looking to capture the world in a new way. |
|
| Xtract3D |
Software |
RE Reverse Engineering |
Plugin for SolidWorks. XTract3D is a reverse engineering toolbar that works natively inside SOLIDWORKS. There is no need to create CAD models from scratch. XTract3D gives you powerful slicing, fitting, and snapping tools to create parametric CAD simply by tracing right on top of 2D cross sections of 3D scan data (Scan-to-CAD). Build a solid CAD foundation that makes everything happening downstream stable |
|
| Mesh2Surface |
Software |
RE Reverse Engineering |
Mesh2Surface is 3D modelling software for Reverse engineering mechanical or free form physical objects into professional CAD/CAM models. |
|
| CloudCompare |
Software |
RE Reverse Engineering |
CloudCompare is a 3D point cloud (and triangular mesh) processing software. It has been originally designed to perform comparison between two dense 3D points clouds (such as the ones acquired with a laser scanner) or between a point cloud and a triangular mesh. It relies on a specific octree structure dedicated to this task. Afterwards, it has been extended to a more generic point cloud processing software, including many advanced algorithms (registration, resampling, color/normal/scalar fields handling, statistics computation, sensor management, interactive or automatic segmentation, display enhancement, etc.). |
|
| MeshLab |
Software |
RE Reverse Engineering |
Open source system for processing and editing 3D triangular meshes.
It provides a set of tools for editing, cleaning, healing, inspecting, rendering, texturing and converting meshes |
|
| Netfab |
Software |
RE Reverse Engineering |
Autodesk Fusion with Netfabb offers a complete toolset for design and implementation in additive manufacturing.
Powerful workflow automation for streamlining 3D print preparation
Intuitive tools for repairing, orienting, arranging, and preparing 3D files for printing
Agile latticing and hollowing tools and parametric supports for lightweighting |
|
| STL Viewer |
Software |
RE Reverse Engineering |
STL Viewer is a professional windows application for viewing CAD models created or exported in STL file format from 3D systems. |
|
| Miro board |
Software |
RE Reverse Engineering |
A Miro board is an online workspace that can be use to visualize ideas and work on projects either individually or with a team |
|
| Geomagic Design X |
Software |
RE Reverse Engineering |
Industry-leading reverse engineering software for converting 3D scan data into feature-based and editable solid CAD models. Reverse engineering software for converting 3D scan data into feature-based and editable solid CAD models |
|
| Catia v6 |
Software |
RE Reverse Engineering |
CATIA is one of the most extensive and technologically advanced software programs supporting engineering work, designed specifically for 3D design. It is used in many demanding industries, making it the choice of leading players in sectors such as automotive and aerospace, as well as engineers, designers, architects, CNC machine programmers, and designers worldwide. |
|
| Rhinoceros |
Software |
RE Reverse Engineering |
Trial acces is free/ Much more cheaper version for teachers and students |
|
| Solid Works |
Software |
RE Reverse Engineering |
Much more cheaper version for teachers and students |
|
| Solid Edge |
Software |
RE Reverse Engineering |
Trial acces is free/Free for Students and Teachers |
|
| Fusion Autodesk |
Software |
RE Reverse Engineering |
Trial acces is free/Free for Students and Teachers |
|
| Autodesk ReCap Pro |
Software |
RE Reverse Engineering |
Trial acces is free/Free for Students and Teachers |
|
| Sima-Pro |
Software |
RE Reverse Engineering |
LCA-open source software for Life Cycle Assesment. |
|
| GaBi |
Software |
RE Reverse Engineering |
LCA-open source software for Life Cycle Assesment |
|
| Opem LCA |
Software |
RE Reverse Engineering |
LCA-open source software for Life Cycle Assesment |
|
| Exploring Reverse Engineering with Computer-Aided Techniques |
Software |
RE Reverse Engineering |
An introduction to the principles and practices of reverse engineering, including the use of software tools to generate 3D models, analyze data, and create accurate representations of physical objects |
|
| Ansys Youtube Tutorial |
Software |
RE Reverse Engineering |
Youtube tutorial for Ansys Discovery |
|
| Scandy Pro 3D Scanner |
Software |
RE Reverse Engineering |
Scandy Pro is an iOS app that allows users to capture 3D scans using devices equipped with TrueDepth or LiDAR sensors. It offers real-time color 3D scanning and supports exporting models in formats like PLY, OBJ, and STL. |
|
| Scann3D |
Software |
RE Reverse Engineering |
Scann3D is an Android application that enables users to create 3D models by capturing photos of objects from different angles. It processes the images to generate detailed 3D models, which can be exported for various uses. |
|
| Heges |
Software |
RE Reverse Engineering |
Heges is an iOS 3D scanning app that utilizes the FaceID or LiDAR capabilities of compatible iPhones and iPads to create detailed 3D scans. It allows for quick export of scans into PLY or STL formats and offers features like AR viewing |
|
| Sony 3D Creator |
Software |
RE Reverse Engineering |
Sony 3D Creator is an app that allows users to scan objects in 3D using their Sony Xperia smartphones. It offers multiple scan modes, including selfie, face, head, food, and freeform scans, enabling the creation of detailed 3D models. |
|
| Trnio |
Software |
RE Reverse Engineering |
Trnio is an iOS application that transforms your iPhone into a high-quality 3D scanner. It combines ARKit and LiDAR technologies to produce detailed 3D scans, with capabilities for editing and exporting models. |
|
| Qlone |
Software |
RE Reverse Engineering |
Qlone is a user-friendly 3D scanning app that allows users to create 3D models using their smartphones. It utilizes a printed AR mat to guide the scanning process and offers features like editing and direct export to various platforms. |
|
| Volume Graphics |
Software |
RE Reverse Engineering |
Volume Graphics provides software for the analysis and visualization of industrial computed tomography (CT) data, enabling detailed inspection and measurement of complex internal structures. |
|
| PolyWorks |
Software |
RE Reverse Engineering |
PolyWorks is a universal 3D metrology software platform that supports the entire manufacturing process, from design to assembly. It offers tools for 3D inspection, analysis, and quality control, integrating data from various 3D measurement devices. |
|
| Artec Studio |
Software |
RE Reverse Engineering |
Artec Studio is professional 3D scanning software that offers advanced tools for creating and editing 3D models. It supports data from various 3D scanners and provides features like automatic alignment, texture mapping, and measurement tools. |
|
| Pix4D |
Software |
RE Reverse Engineering |
Pix4D is a Swiss software company that develops a suite of photogrammetry products which transform images into 3D maps and models. Their products are used in various industries, including agriculture, construction, and mining, for applications like mapping and surveying. |
|
| Photomodeller |
Software |
RE Reverse Engineering |
The PhotoModeler software extracts Measurements and Models from photographs taken with an ordinary camera. |
|
| OpenMVG |
Software |
RE Reverse Engineering |
OpenMVG (Multiple View Geometry) is a library for computer vision scientists and especially targeted to the Multiple View Geometry community. It provides algorithms for 3D reconstruction, including Structure-from-Motion (SfM) and Multi-View Stereo (MVS). |
|
| MicMac |
Software |
RE Reverse Engineering |
MicMac is an open-source photogrammetry software suite developed by the National Institute of Geographic and Forest Information (IGN) in France. It is used for 3D reconstruction from images, offering a range of tools for different photogrammetric tasks. |
|
| Meshroom |
Software |
RE Reverse Engineering |
Meshroom is a free, open-source 3D reconstruction software based on the AliceVision framework. It provides a node-based workflow for photogrammetric processing, allowing users to create 3D models from photographs. |
|
| IMAGINE Photogrammetry |
Software |
RE Reverse Engineering |
IMAGINE Photogrammetry, formerly known as LPS, is a software suite designed for photogrammetric production. It provides tools for triangulation, orthophoto production, and 3D feature extraction, supporting various sensors and data types. |
|
| DroneDeploy |
Software |
RE Reverse Engineering |
DroneDeploy is a cloud-based drone mapping software that provides tools for creating 3D maps and models from aerial imagery. It offers real-time drone mapping, cloud-based processing, and integration with various drone models. |
|
| Colmap |
Software |
RE Reverse Engineering |
COLMAP is a general-purpose Structure-from-Motion (SfM) and Multi-View Stereo (MVS) pipeline with a graphical and command-line interface. It offers features like automatic reconstruction, dense point cloud generation, and textured mesh generation. |
|
| Bentley ContextCapture |
Software |
RE Reverse Engineering |
Bentley ContextCapture enables the production of high-resolution 3D models from simple photographs, without the need for specialized equipment. It is ideal for large-scale modeling projects, such as cityscapes and terrains, and integrates with Bentley’s suite of tools. |
|
| Leveraging Additive Manufacturing and Reverse Engineering for Circular Economy-Driven Remanufacturing of Hydraulic Drive System Components |
Publications |
Mix RE-CE |
This work lies in the field of hydraulic drive systems maintenance and remanufacturing and within the framework of the circular economy concept. The specific application is the remanufacture of hydraulic flowmeter components using additive manufacturing and reverse engineering techniques. |
|
| The circular economy and climate protection – Egineer course |
Study program |
CE Circular Economy |
Egineer course include: circular economy issues; climate protection; engineering and environmental technologies; environmental risk assessment. |
|
| Autodesk ReCap |
Software |
CE Circular Economy |
Autodesk ReCap is a reality capture and 3D scanning software that allows users to create accurate 3D models from photographs and laser scans. It integrates seamlessly with other Autodesk products, making it suitable for architecture and construction projects. |
|
| Agisoft Metashape |
Software |
RE Reverse Engineering |
Process digital images and generate 3D spatial data. |
|
| 3DZephyr |
Software |
RE Reverse Engineering |
Photogrammetry software for building 3D Models. |
|